func (c *converter) convertBasic(v *gotypes.Basic) *types.Basic { if v == nil { return nil } if v, ok := c.converted[v]; ok { return v.(*types.Basic) } var ret *types.Basic for i, b := range gotypes.Typ { if v == b { ret = types.Typ[i] break } } switch v.Kind() { case gotypes.Byte: ret = types.ByteType case gotypes.Rune: ret = types.RuneType } if ret == nil { panic(fmt.Sprintf("unknown basic type %v", v)) } c.converted[v] = ret return ret }
func (g *javaGen) javaBasicType(T *types.Basic) string { switch T.Kind() { case types.Bool, types.UntypedBool: return "boolean" case types.Int: return "long" case types.Int8: return "byte" case types.Int16: return "short" case types.Int32, types.UntypedRune: // types.Rune return "int" case types.Int64, types.UntypedInt: return "long" case types.Uint8: // types.Byte // TODO(crawshaw): Java bytes are signed, so this is // questionable, but vital. return "byte" // TODO(crawshaw): case types.Uint, types.Uint16, types.Uint32, types.Uint64: case types.Float32: return "float" case types.Float64, types.UntypedFloat: return "double" case types.String, types.UntypedString: return "String" default: g.errorf("unsupported basic type: %s", T) return "TODO" } }
func toJavaScriptType(t *types.Basic) string { switch t.Kind() { case types.UntypedInt: return "Int" case types.Byte: return "Uint8" case types.Rune: return "Int32" case types.UnsafePointer: return "UnsafePointer" default: name := t.String() return strings.ToUpper(name[:1]) + name[1:] } }
func (c *funcContext) fixNumber(value *expression, basic *types.Basic) *expression { switch basic.Kind() { case types.Int8: return c.formatParenExpr("%s << 24 >> 24", value) case types.Uint8: return c.formatParenExpr("%s << 24 >>> 24", value) case types.Int16: return c.formatParenExpr("%s << 16 >> 16", value) case types.Uint16: return c.formatParenExpr("%s << 16 >>> 16", value) case types.Int32, types.Int, types.UntypedInt: return c.formatParenExpr("%s >> 0", value) case types.Uint32, types.Uint, types.Uintptr: return c.formatParenExpr("%s >>> 0", value) case types.Float32: return c.formatExpr("$fround(%s)", value) case types.Float64: return value default: panic(fmt.Sprintf("fixNumber: unhandled basic.Kind(): %s", basic.String())) } }
func basicKindString(b *types.Basic) string { switch b.Kind() { case types.Invalid: return "invalid" case types.Bool: return "bool" case types.Int: return "int" case types.Int8: return "int8" case types.Int16: return "int16" case types.Int32: return "int32" case types.Int64: return "int64" case types.Uint: return "uint" case types.Uint8: return "uint8" case types.Uint16: return "uint16" case types.Uint32: return "uint32" case types.Uint64: return "uint64" case types.Uintptr: return "uintptr" case types.Float32: return "float32" case types.Float64: return "float64" case types.Complex64: return "complex64" case types.Complex128: return "complex128" case types.String: return "string" case types.UnsafePointer: return "unsafepointer" // types for untyped values case types.UntypedBool: return "bool" case types.UntypedInt: return "int" case types.UntypedRune: return "rune" case types.UntypedFloat: return "float" case types.UntypedComplex: return "complex" case types.UntypedString: return "string" case types.UntypedNil: return "nil" default: return "unsupported" } }
func is64Bit(t *types.Basic) bool { return t.Kind() == types.Int64 || t.Kind() == types.Uint64 }